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1
Copyright © 2014 Pearson Education, Inc.
Evolutionary Analysis, 5e (Herron/Freeman)
Chapter 6 Mendelian Genetics in Populations I: Selection and Mutation
1) A hypothetical population has two alleles for a gene: A and a. In a random sample of 100
individuals, 20 are homozygous for a, 20 are homozygous for A, and 60 are heterozygous. What
is the frequency of A?
A) 20%
B) 25%
C) 50%
D) 60%
E) 80%
Answer: C
Section: 6.1
Skill: Application/Analysis
2) In the mating of an Aa female and an Aa male, the genotypic outcome predicted by a Punnett
square is ________.
A) three-quarters Aa and one-quarter AA
B) one-half AA and one-half aa
C) three-quarters Aa and one-quarter aa
D) one-quarter AA, one-quarter aa, and one-half Aa
E) All offspring will have the genotype Aa
Answer: D
Section: 6.1
3) The probability that two mutually exclusive events will occur is calculated by ________.
A) multiplying the probability of each individual event
B) adding the probability of each individual event
C) adding the probability of each individual event and subtracting 1
D) adding the probability of each individual event and multiplying by 2
Answer: B
Section: 6.1
Skill: Knowledge/Comprehension
4) If a population is in Hardy-Weinberg equilibrium, which of the following statements is
correct?
A) Each allele will be present at a 50% frequency.
B) Allele frequencies can vary from generation to generation, but the average frequency must
remain constant.
C) The size of the population must remain constant from generation to generation.
D) Allele frequencies must remain the same from generation to generation.
E) The rate of change of allele frequencies must be greater than 1 percent from generation to
generation.
Answer: D
Section: 6.1

2
5) The null hypothesis, which demonstrates that evolution is not occurring from generation to
generation, is known as the ________ model.
A) Bateman
B) Hardy-Weinberg
C) Fisher stability
D) Mendelian stability
Answer: B
Section: 6.1
6) In large populations, the Hardy-Weinberg equilibrium principle can be used to determine
whether evolution is occurring. For instances where allelic frequencies are indicated by p and q,
the resultant genotype frequencies are indicated by which of the following equations?
A) p2 + q2
B) p2 + pq + q2
C) p2 + 2pq + q2
D) p2 + (pq)2 + q2
Answer: C
Section: 6.1
7) Cavener and Clegg (1981) demonstrated natural selection by observing the cumulative change
in allele frequencies in populations of Drosophila melanogaster that were subjected to high
levels of ________.
A) mercury
B) carbon dioxide
C) alcohol
D) sugar
E) nitrous oxide
Answer: C
Section: 6.2
8) If there were a high allele frequency for the CCR5-32 coreceptor, and the rate of infection
with HIV was high as well, one would expect the frequency of the CCR5-32 coreceptor allele to
________.
A) remain the same due to the lethality of AIDS
B) remain the same due to the population maintaining Hardy-Weinberg equilibrium
C) fall quickly due to heterozygote selection
D) rise quickly and confer resistance on a large part of the population
Answer: D
Section: 6.2

3
9) In experiments with laboratory populations of Drosophila melanogaster, Mukai and Burdick
(1959) observed that a lethal allele maintained a higher than expected frequency. The
explanation for this observation is that, at equilibrium, the selective advantage of the lethal allele
when it occurs in heterozygotes balances the disadvantage of the allele in homozygotes, and is
termed ________.
A) equilibrium distribution
B) underdominance
C) allelic frequency dependence
D) overdominance
E) terminal dominance
Answer: D
Section: 6.3
10) In the study of Gigord and colleagues using Elderflower orchids, the allele frequencies of
yellow and purple flowers varied such that when the yellow allele started to become rare, the
reproductive success of purple flowers decreased and the reproductive success of yellow-
flowered individuals increased in a process known as ________.
A) overdominance
B) frequency-dependent selection
C) underdominance
D) Hardy-Weinberg stabilization
E) frequency depression
Answer: B
Section: 6.3
11) The point at which the rate that a deleterious allele is being eliminated from a population by
natural selection is in equilibrium with the rate at which the deleterious allele is being replaced
by a new mutation is termed ________.
A) mutation-dependent selection
B) frequency-dependent selection
C) mutation-dependent equilibrium
D) mutation-selection balance
Answer: D
Section: 6.4

4
12) Cystic fibrosis is one of the most common genetic diseases among individuals of European
ancestry, and affects one newborn in approximately how many?
A) 10
B) 100
C) 250
D) 2,500
E) 10,000
Answer: D
Section: 6.4
13) Cystic fibrosis is caused by a recessive loss-of-function mutation that encodes a protein
called the ________.
A) cystic fibrosis transmembrane ion channel
B) chloride ion transmembrane conductance regulator
C) cystic fibrosis transmembrane conductance regulator
D) cystic fibrosis ion channel regulator
Answer: C
Section: 6.4
14) An analysis showing the heterozygote superiority of the ΔF508 allele of CFTR demonstrates
increased resistance to infections with the bacteria that cause ________.
A) pneumonia
B) typhoid fever
C) scarlet fever
D) bubonic plague
E) tuberculosis
Answer: B
Section: 6.4
15) Chun-Hong Chen and colleagues (2007) designed a new gene that would carry a strong
selective advantage and confer the resistance to malaria on free-living mosquitoes. The gene was
termed Medea, and this acronym stands for which of the following?
A) Maternal-effect depleted embryonic activation
B) Maternal-effect dominant embryonic activation
C) Maternal-effect deleterious embryonic arrest
D) Maternal-effect dominant embryonic arrest
Answer: D
Section: 6.5

5
16) A group of interbreeding individuals and their offspring is known as a(n) ________.
Answer: population
Section: 6.1
17) The Hardy-Weinberg equilibrium principle is known as the null hypothesis. List the five
assumptions that are required for a population to be in Hardy-Weinberg equilibrium.
Answer: no selection, no mutation, no chance events, no migration, and mating occurs randomly
Section: 6.1
18) In biallelic populations, where allelic frequencies are indicated by p and q, the resultant
genotype frequencies are indicated by what algebraic formula?
Answer: p2 + 2pq + q2
Section: 6.1
19) The Hardy-Weinberg equilibrium principle is often referred to as the ________, [two words]
which indicates that if a population is in Hardy-Weinberg equilibrium, that population is not
evolving.
Answer: null model
Section: 6.1
20) The statistical test used to determine whether the quantitative allele frequency results of an
experiment fall within reasonable limits, or whether the null hypothesis is violated and the
measured outcomes are significantly different than those expected is called the ________. [three
words]
Answer: chi-square test (χ2)
Section: 6.2
Skill: Knowledge/Comprehension, Application/Analysis
21) Two processes that can maintain rare or deleterious alleles in populations are ________ [four
words] and ________. [two words]
Answer: negative frequency-dependent selection; heterozygote superiority
Section: 6.3
22) Although selection tends to eliminate deleterious alleles from populations, these mutations
often persist because they are frequently created again. The rate at which deleterious alleles are
being eliminated by selection is exactly equal to the rate at which new copies are being created
by creation is termed ________. [three words]
Answer: mutation-selection balance
Section: 6.4

6
23) Cystic fibrosis in humans is caused by a recessive loss-of-function mutation in a locus on
chromosome 7 that encodes for a protein called ________. [five words]
Answer: cystic fibrosis transmembrane conductance regulator (CFTR)
Section: 6.4
24) Chun-Hong Chen and colleagues (2007) designed a new gene that would carry a strong
selective advantage and confer the resistance to malaria on free-living mosquitoes. What was the
acronym given this gene, and what does the acronym stand for?
Answer: The gene was termed Medea, and this acronym stands for maternal-effect dominant
embryonic arrest.
Section: 6.5
25) Explain the consequence of overdominance in maintaining a deleterious allele in a
population as it relates to genetic diversity.
Answer: Overdominance, or heterozygote superiority, helps prevent potentially deleterious
alleles from being lost in a population. Because the selective advantage of the deleterious allele
in heterozygotes is balanced by the disadvantage of maintaining the allele in the homozygous
state, allelic diversity within the population is maintained. This diversity enables more favorable
responses to changing selective pressures of the environment.
Section: 6.3
26) Briefly describe the structure of compound chromosomes, and explain how their behavior
during meiosis can be used to study underdominance.
Answer: Compound chromosomes are homologous chromosomes that have exchanged entire
arms; one homolog therefore contains two copies of one arm, whereas the other homolog
contains two copies of the other arm. During meiosis, four types of gametes are produced in
equal numbers; gametes with both homologous chromosomes, gametes with just one member of
the pair, gametes with the other member of the pair, or gametes containing no members of the
homologous pair. Heterozygotes produced are therefore not viable, so the resultant populations
consist of only homozygotes.
Section: 6.3
27) List the five assumptions made by the Hardy-Weinberg equilibrium principle that are
necessary to illustrate that evolution is NOT occurring from generation to generation, and
provide a one- or two- sentence explanation of the importance of each assumption.
Section: 6.1

7
28) Discuss the experiments Cavener and Clegg (1981) performed in order to demonstrate that
natural selection occurred by observing the cumulative change in allele frequencies in
populations of Drosophila melanogaster that were subjected to high levels of alcohol. Be sure to
discuss the methodology employed, and the significance of the AdhS and AdhF alleles in
reproductive success.
Section: 6.2
Skill: Synthesis/Evaluation
29) Explain the significance of the experiments of Mukai and Burdick (1959) with laboratory
populations of Drosophila melanogaster using the V (viable) and L (lethal) alleles. Be sure to
explain their observation that a lethal allele was maintained at a higher than expected frequency,
and the evolutionary significance of overdominance in these populations.
Section: 6.3
Skill: Synthesis/Evaluation
30) Explain the composition of the Drosophila melanogaster compound chromosomes used in
the experiments of Foster and colleagues (1972), the mechanism by which these chromosomes
segregate during meiosis, and the evolutionary implications of the strong underdominance that
was observed.
Section: 6.3

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Mimosa,
Ospringe.
Guelph.
Gourock,
* Guelph,
Marden.
Puslinch.
Aberfoyle,
Arkell,
Crieff,
Killean,
Morriston,
Puslinch.
WENTWORTH, NORTH RIDING.
Beverley.
Clyde,
Copetown,
Kirkwall,
Lynden,
Rockton,
Sheffield,
Troy,
Westover.

Flamboro’, East.
Aldershot,
Carlisle,
Mountsberg,
* Waterdown.
Flamboro’, West.
Bullock’s Corners,
* Dundas,
Freelton,
Greensville,
Hayesland,
Mill Grove,
Strabane,
West Flamboro’.
WENTWORTH, SOUTH RIDING.
Ancaster.
Alberton,
Ancaster,
Carluke,
Jerseyville,
Renforth.
Barton.
Bartonville,
Hannon,
Ryckman’s Corners.
Binbrook.

Binbrook,
Black Heath,
Sinclairville,
Woodburn.
Glanford.
Glanford,
North Glanford,
Renton Station.
Saltfleet.
Elfrida,
Mount Albion,
Stony Creek,
Tapleytown,
Tweedside,
Winona.
YORK, EAST RIDING.
Markham.
Almira,
Belford,
Boxgrove,
Buttonville,
Cashel,
Cedar Grove,
Dollar,
Gormley,
Hagerman’s Corners,
Headford,
Langstaff (sub.),

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